DE4327159A1 - Process for the preparation of sorbents based on smectites and cellulosic materials with low bulk density - Google Patents

Abstract

A process is disclosed for producing sorbents based on betonites and cellulose-containing materials with a low bulk density and a high absorption power. The process is characterised in that a moist mixture of bentonite and crushed cellulose-containing primary raw materials is processed under an intense shearing action, then extruded and finally dried and granulated.

Description

The invention relates to a process for the preparation of Sorbents based on smectites and cellulose containing low-bulk materials. These Sorbents are for holding any liquids suitable; but they are particularly suitable as a scattering agent for pets, which is why the following comments relate in particular to this field of application.

Pet ownership in a largely urbanized environment is increasingly with the use of litter materials connected. These have the task, the abgege of the animals to absorb liquids while doing the Ge  to inhibit or prevent odor development. You should be fer the semi-solid, wet animal excrement and off Moisture removal in order to remove odors reduce winding. Good litter materials have about it In addition, the property, the discharged or withdrawn Flüs to take up a compact lump, which can be removed in a simple and economical way. egg ne optimal animal litter thus has a high absorbency.

The products found on the market are once orga niche substances, such as straw, sawdust, wood shavings, bark, porous plastic beads, shredded paper, cellulose fibers, agricultural wastes, polyacrylates, etc .; these become alone or used in mixtures with inorganic materials. The disadvantage of organic litter materials is often the unsatisfactory formation of lumps or their consistency and their tendency to bacterial decomposition, in particular in interaction with moisture.

On the other hand, from DE-A-38 16 225 odor and damp binding agents, especially for small animals, with a cellulosic material known, wherein the pulp containing material as a wet substance at least with a kapil larstensible, small-grained substance with a grain size <0.5 mm in a weight ratio of 90:10 to 20:80. As a cellulose-containing material is preferably in the Treatment of waste water from paper production accumulating wet mass (paper stock) with a moisture content from 50 to 60 wt .-% used. As a capillary substance can z. B. bentonite used in the untreated state has a moisture content of about 30% by weight. Prefers However, pumice meal with a moisture content of at most 30% by weight. The mixture can be compacted, tablet be pelleted or pelleted. However, it was found that these treatments are insufficient to make a litter to obtain medium with satisfactory lump formation.  

From DE-A-41 01 243 is also an animal litter and a A process for their preparation is known in which a cellulose material with weighting agents, thickeners and / or bandages mixed and dehydrated, crushed and water mixed is dried. As cellulosic material z. Wood, wood products, residues from wood processing and straw ver be used. As a thickener z. For example, silica, silica table materials, zeolite, bentonite and polyacrylates ver be used.

The invention was based on the object, a method for Her low smectite sorbents To provide bulk density, in which a considerable An part of cellulosic materials can be used without the ability to form lumps in contact with aq ry liquids is impaired.

The invention thus relates to a method for producing egg sorbent based on smectites and cellulo containing primary raw materials; the process is characterized characterized in that a moist mixture of smectite and zer Smaller cellulose-containing primary raw material under intimate Shearing action treated with subsequent extrusion and this Dries and granulates.

In appreciating the advantages of the Ver driving is to be assumed from the following:

A bentonite granulate made from a high quality smectite (i.e., having a montmorillonite content of at least 60% by weight) is produced by the following characteristics out:

• Ability to form lumps when used with aqueous Liquids,
• - high water and liquid absorption capacity (120% by weight),  
• - high bulk density (850-1000 g / l).

The advantage of the method according to the invention is now therein, granules using smectites, such as Ben tonite, and lightweight cellulosic primary raw In addition to the above Vor Share the only made of bentonite granules a small Bulk density (400-800, preferably 550-700 g / l). Moreover, the water absorption capacity by Ver Use of cellulose-containing primary tubing can be increased.

Cellulosic primary raw materials are understood to mean according to the comminuted wood material or another zer Smaller cellulosic material of plant origin, z. B. annual plants or parts thereof, such as straw, Grass, reeds, husks, chaff, crushed peanut shells, Stems of maize and sunflowers as well as long-fibred maize such as cotton and cotton waste, flax, ramie, Hemp and jute. The long-fiber materials, however, are less preferred because the fibers in the preparation of the Mi must be shortened.

The cellulosic primary raw materials do not include che mixed treated cellulose, such as sulfite or sulfate pulp or regenerated cellulose and recycled Alt paper.

The dried granules obtained are firm and have a what seraufnahmefähigkeit of more than 100%, preferably more as 120%. A method for determining the Wasseraufnahmefä is given below, as well as a Me method of determining the water content of the starting material terial used smectites and cellulose-containing primary raw material, as well as a method for determining the water content of the granules.

The smectite and the cellulose-containing primary raw material become  preferably by intense shear at an energy from 2 to 10, preferably from 3 to 6, kWh / to mixture mixed together. The smectite content is present preferably on the outside of the granules.

For mixing, a shearing aggregate (eg. a Bedeschi mixer or a Ziegelpreßaggregat the company Händle) used.

Preferably, the ratio between smectite and Cellulose-containing primary raw material (based on the respective Dry matter) to 3.6 to 12: 1, in particular 4.2 to 6.8: 1.

As smectite is preferably used an alkaline earth or Alkaline bentonite, which is usually found in the humid state Has moisture content of about 30%. The smectite can, in special if the cellulose-containing primary raw material a high Moisture content also has to be pre-dried.

The drying of the sorbent is preferably there by that the material to be dried with not more than 150 ° C, preferably not more than 120 ° C, charged. at Drying at higher temperatures can cause a reduction sorption capacity of smectite.

The dried sorbent is preferably applied to a Grain size of about 0.1 to 10 mm, in particular from about 1 to 5 mm, granulated.

The invention further provides an after the above described method available sorbent in the form a granulate containing a smectite and a crushed one containing cellulose-containing primary raw material, wherein the water content of the granules is not more than 15 wt .-% is.

Preferably, the sorbent contains 60 to 90, esp  in particular 68 to 84% by weight of smectite 5 to 25, in particular 10 to 20 wt .-% cellulose-containing primary raw material (in each case based on dry matter) and 5 to 15, in particular 6 to 12% by weight free water.

The sorbent of the invention preferably has a Bulk density of 400-800 g / l, in particular of 550-700 g / l, and a water absorption of about 100-200%, in particular from 110 to 150%.

The sorbent according to the invention can also be used per se known sorbents, for. As organic sorbents be blended. Furthermore, the sorbent white pigments, disinfectants and / or animal acceptances ent hold.

The invention further provides the use of the before standing specified sorbent as packing material, Liquids for liquids (eg body fluids, oil, liquid chemicals) and as bedding material for pets, especially as cat litter.

The water content of the smectite used according to the invention is determined as follows:
10 g of smectite are weighed out to a precision of 0.01 g in a shallow dish and heated to constant weight at 105 ° C (at least 2 hours). The sample is then allowed to cool to room temperature in a desiccator and weighed.
Evaluation:

The water content of the sorbent according to the invention is  similar to the water content of the smectite. The Er Heating takes place at 105 ° C to constant weight. The what sergehalt of the cellulose-containing material is in corre sp determined manner (drying at 105 ° C to weight constancy).

The water absorption capacity of the sorption according to the invention by means of the method of Westinghouse (No. 17-A) determined (see Industrial Minerals, August 1992, page 57). This is up to a residual water content of 6 wt .-% dried sorbents in a conical container made of fine wire mesh (clear mesh size 0.25 mm = 60 mesh, Diameter 7 cm, height 7.6 cm) weighed (weight E = 20 g). Then the total weight (wire mesh + weight E = E₁ determined in g). The filled tissue will be in for 20 minutes a glass bowl filled with water hung in such a way that the sorbent completely submerged. After 20 minutes Take the wire cloth out of the water and leave it for 20 minutes drip off. Immediately thereafter, the weight of the Behäl with content (E₂ in g). The evaluation will be like follows:

The water penetration test is carried out as follows:

On a leveled and not compacted bed of granular sorbent in a glass dish (diameter 140 mm, height 75 mm, filling height 50 mm) becomes water from a Add 50 ml burette and observe the penetration depth. here at the outlet of the burette is at a height of 3 to 4 cm placed in the middle of the bed, whereupon 60 ml of tap water These can be spilled within 55 to 60 seconds. After a waiting period of 3 minutes, the bowl is lowered page checked if water has passed through; that is going through on a discoloration of the granular material on the shell underneath  recognizable side. The evaluation is carried out as follows:

• - discoloration on the bottom of the tray not visible: test passed;
• - discoloration on the bottom of the tray visible: test not passed.

The bulk density is determined as follows:

A 500 ml graduated cylinder is initially weighed empty. Then a powder funnel with an opening of about 15 cm and an outlet opening of about 3 cm is placed and filled with the sorbent granules within about 5 seconds. Thereafter, the powder funnel is removed from the measuring cylinder, in such a way that the granules therein forms a protruding Ke gel. This is stripped with a broad spatula along the cutting edge of the measuring cylinder. The filled Meßzy cylinder is externally freed of adhering grains or dust and weighed again. The bulk density is calculated as follows:
Bulk weight (g / l) = 2 × net weight (g / 500 ml)
The formation of lumps can be qualitatively determined as follows:

• - strength 1 (sufficiently strong),
• - lump consists of homogeneous mass without visible and tactile grains,
• - Lump breaks with slight pressure into smaller breakage pieces,
• - lump is wet,
• - strength 2 (soft, mushy),
• - Lump consists of greasy mass
• - Lump bends on removal and disintegrates with light pressure,
• - lump is wet
• - Strength 3 (friable-wet),  
• - lump consists of only slightly cohesive, crumbly mass,
• - Lump disintegrates when removing or when light Pressure into many individual fragments,
• - lump is wet.

The invention is not illustrated by the following examples restrictively explained.

Example 1 (comparison)

320 g of pit-wet Bavarian calcium bentonite are placed in a Werner Pfleiderer mixer 1 min. with the addition of one small amounts of distilled water are kneaded. The energy intake is 2 kWh / to. The goal of the pre-programming is the Homogenization of bentonite and its transformation into a plastic, easily kneadable mass. The ideal water content is experience has shown that by adding so much water, that when kneading a "smacking" noise is produced and the crude bentonite resembles plastillin. This is usually with egg Nem water content of 30 to 35 wt .-% of the case. After that, 5 min. further kneaded; the plastillin-like state is sustained by adding some water as needed. The kneaded Bentonite is crushed in pieces of about 1 to 1.5 cm, placed in a porcelain dish and in the convection oven 1 up to 2 hours at 80 to 85 ° C to a water content of 4 to 8 wt .-% dried. This is evident from the fact that the pieces inside are still slightly dark colored. It will be the granules fraction screened between 1 and 5 mm; the fine fraction is in returned to the mixer.

Water content: 6.3% by weight Bulk density: 992 g / l Water absorption capacity: 114% Water penetration test: passed Lump strength: sufficiently strong (1)

Example 2

320 g of pit-damped Bavarian calcium bentonite 5 wt .-% Sägestaub (based on dry matter) with a Grain size of <1 mm and a water content of 31% added puts. Then, as in Example 1 in an energy intake of 3 kWh / to kneaded. The kneading mixture is dried and granulated (particle size about 1-5 mm). The granules have following properties:

Water content: 5.9% by weight Bulk density: 775 g / l Water absorption: 126% Water penetration test: passed Lump strength: sufficiently strong (1)

Example 3

The operation of Example 2 is with the deviation as derholt that 10% sawdust be kneaded. The granules has the following characteristics:

Water content: 6.3% by weight Bulk density: 659 g / l Water absorption: 137% Water penetration test: passed Lump strength: sufficiently strong (1)

Example 4

The operation of Example 2 is with the deviation as derholt that 15 wt .-% Sägestaub be kneaded. The Gra nulat has the following characteristics:

Water content: 5.4% by weight   Bulk density: 573 g / l Water absorption: 145% Water penetration test: passed Lump strength: sufficiently strong (1)

Example 5

The operation of Example 2 is with the deviation as derholt that 25 wt .-% Sägestaub be kneaded. The Gra nulat has the following characteristics:

Water content: 6.1% by weight Bulk density: 406 g / l Water absorption: 185% Water penetration test: passed Lump strength: soft, mushy (2)

Example 6

The operation of Example 2 is with the deviation as derives that 10% crushed straw at an energy 5 KWh / to be kneaded. The granules have following properties:

Water content: 6.8% by weight Bulk density: 674 g / l Water absorption: 134% Water penetration test: passed Lump strength: sufficiently strong (1)

Example 7 (comparison)

The operation of Example 2 is with the deviation  repeated that 42% paper residue are kneaded. The paper remainder are residues the paper industry with a solids content of about 51% and about 22% lime and 10% kaolin. The granules has the following characteristics:

Water content: 5.3% by weight Bulk density: 670 g / l Water absorption: 102% Water penetration test: failed Lump strength: friable-wet (3) (not compact removable)

Claims (14)

1. A process for the preparation of sorbents on the Ba sis of smectites and cellulose-containing materials with low-bulk density, characterized in that a moist mixture of smectite and crushed cellulose-containing primary raw material under intimate shear with treated after the following extrusion and then dried and granulated. 2. The method according to claim 1, characterized in that one as a cellulose-containing primary raw material shredded Holzma material or another cellulose-containing material of origin. 3. The method according to claim 1 or 2, characterized that the smectite at an energy intake of 2 to 10, preferably from 3 to 6 kWh / to mixture and the cellulose containing material by intensive shear ver together mixed. 4. The method according to any one of claims 1 to 3, characterized marked records that one with a cellulose-containing primary raw material with a water content of 10 to 40, preferably 20 to 30 wt .-% starts. 5. The method according to any one of claims 1 to 4, characterized marked records that the ratio of smectite and cellulosehal primary raw material, based on the respective dry matter to 3.6 to 12: 1, preferably to 4.2 to 6.8: 1 sets. 6. The method according to any one of claims 1 to 5, characterized ge indicates that as smectite an alkaline earth or Al used kali bentonite. 7. The method according to any one of claims 1 to 6, characterized marked  records that the dried sorbent on a Grain size of about 0.1 to 10 mm, preferably from about 1 to 5 mm, granulated. 8. Sorbent obtained by the method according to one of the Proverbs 1 to 7 is available and that in the form of granules a smectite and a minced cellulosic Pri contains the raw material, the water content of the granules not more than 15% by weight. 9. sorbent according to claim 8, characterized in that that the cellulosic primary raw material is a comminuted Wood material or other cellulosic material of plant origin. 10. sorbent according to claim 8 or 9, characterized gekenn that it is 60 to 90, preferably 68 to 84 wt .-% Smectite, 5 to 25, preferably 10 to 20 wt .-% cellulose containing primary raw material (in each case based on dry matter) and 5 to 15, preferably 6 to 12 wt .-% free water contains. 11. Sorbent according to one of claims 8 to 10, characterized characterized in that it has a bulk density of about 400-800 g / l preferably from about 550-700 g / l and a water absorption of about 100-200%, especially about 110-150%. 12. sorbent according to one of claims 8 to 11, characterized characterized in that it is known per se with sorbents, z. B. with organic sorbents, blended. 13. sorbent according to one of claims 8 to 12, characterized characterized in that it contains white pigments, disinfectants and / or animal acceptances. 14. Use of the sorbent according to one of claims 8 up to 13 as packing material, absorbent for liquids  as well as bedding material for pets, especially as cat zenstreu.